SE434633B - LIFTING DEVICE - Google Patents

Description

15 20 25 30 35 4oi 8000767-'1. In this case, Fig. 1 is a perspective view of a lifting device according to the present invention. Fig. 2 is a side view of a counterweight structure according to the invention.

Fig. 3 'is a plan view of the counterweight of Fig. 2. Fig. 4 is an end view of the lifting device of Fig. 1 with the boom in its upright position, showing the position with maximum instability with respect to tipping. Fig. 5 shows a view of a previously known lifting device with respect to the same maximum instability for tipping.

Referring to Fig. 1, there is shown in perspective a lifting device 10 having an extendable boom 12 located in its retracted position. The extendable boom 12 is shown in broken lines in its extended position. The extendable boom 12 has an outer boom 14 and an inner boom 16. The lifting device 10 has a frame 18, on which a housing 20 is rotatably mounted in a conventional manner. The housing 20 comprises a counterweight assembly (Figs. 2 and 3). The necessary machinery, fuel tanks, etc. g for operation of the lifting device is contained in the frame and the housing. The lifting device 10 has four wheels 22, the two rear wheels in the preferred embodiment being individually driven in a conventional manner. The boom is hydraulically operated both in terms of length and vertical position. The vertical position of the boom is adjusted by means of a lifting cylinder 24, which is connected to the housing 20 and the outer boom 14. The inner boom 16 is terminated by a working platform 26. By rotating the housing 20 and raising the boom 12 by means of the lifting cylinder 24 and by extending the boom 12 can be placed on the platform 26 where desired so that the worker can perform his task. Fig. 2 shows in side view a counterweight assembly 140 according to the present invention for use in the lifting device 10. The counterweight assembly 140 comprises a body 142 mounted on a rotatable base plate 144. The base plate is connected to the frame 18 so that it is rotatable about an axis of rotation as shown in Fig. 2. The counterweight body 142 has a pair of mounting brackets 146 attached to its upper portion (compare Fig. 3), and additional mounting brackets 148 for a hydraulic leveling control cylinder. The boom mounting holders each have a hole 146A, which is the attachment point for the boom 12 to the lifting device 10 by means of the boom mounting pin 34. The level adjusting system includes a guide cylinder (not shown) and the saw cylinder 28. The guide cylinder is attached to the mounting holder 14. s1agcylinder 28 to level the work platform 26, i.e. hå11a this horizon11. As shown in Figs. 2 and 3, the counterweight body 142 has a round rear portion 150 spaced from the axis of rotation and a straight front portion 152 within the axis of rotation. A pair of lifting cylinder mounting holders 154 are attached to the front body portion 152, the lifting cylinders 24 (compare Fig. 1) being pivotally attached to these holders. A pair of rectangular tubes 155 provide additional strength to the counterweight assembly 140. The tubes are attached to the pivot plate 144 and the planar side portions 156 of the counterweight body 142. The counterweight body 142 has a sloping upper surface facing the surface 1558. from the rear side to the front side. The upper surface allows lowering of the boom l2 to the horizontal position or even under horizontal position.

The pivot plate 144 is rotatably attached to the frame 18 by conventional means. Depending on the different equipment to be used, the different power sources required for the lifting device 10 may be mounted on the pivot plate 144, the frame 18 or the counterweight assembly 140. In Fig. 1, the counterweight assembly is enclosed in a housing 20, which may, for example, be made of a strong plastic material.

In the preferred embodiment, the housing 20 also includes fuel tanks for the lifting device 10 which are mounted on the inclined upper surface of the counterweight body 142 and are enclosed by the housing 20.

The counterweight itself consists of a steel casing, which is filled with a ballast material to obtain the desired weight, after which the casing is closed. Due to the placement of the boom mounting bracket 146 on the counterweight body 142, it will be appreciated that the center of gravity of the counterweight assembly 140 is always located between the pivot connection between the boom 12 and the counterweight assembly 140 and the axis of rotation of the pulley 144.

Fig. 4 shows the lifting device 10 according to the present invention with the boom in its most raised position, which is the condition which constitutes the greatest danger of tipping the lifting device when it is on a slope. As can be seen from Fig. 4, the lifting device 10 has a position for the center of gravity 160, which is well within the outer limits of the lifting frame and is located between the axis of rotation of the housing 20 and the pivot connection 146A for the boom 14. Thus, the lifting device 10 will not tip over.

This stability against tipping is lacking in previously known lifting devices, which are shown, for example, in Fig. 5 by means of the lifting device 162. This lifting device 162 has a frame 164 with wheels 160 to be self-propelled. The lifting device 162 has an extendable boom 168 which is pivotally mounted to a housing 170 at pivot points 72.

The lifting device 162 has a counterweight assembly 174 attached to the housing to provide a center of gravity position 176 which is well outside the area formed by the wheels 166. Furthermore, the pivot point 172 of the boom 168 is located between the center of gravity 176 and the axis of rotation of the lifting device. Thus, in this prior art lifting device 162 when the lifting arm is in the upward position and especially when the lifting device is used on a slope, there is a danger that it will tip over with the accompanying damage to the lifting device and the personnel working on the work surface. the form. This risk of tipping is avoided in the present invention in two ways. The center of gravity of the lifting device is always located between the pivot connection of the boom with the counterweight and the axis of rotation of the lifting device. In the preferred embodiment, additional stability is achieved by placing the center of gravity of the counterweight assembly within the frame of the lifting device. When the center of gravity is so located, the lifting device can in o! 15 - 20 25 30 8000767-'7 i n * i do not tip under normal weight conditions. The angle of inclination required for such a tilting is so great that the worker receives sufficient warning that a correction of the lifting device can be performed. By placing the center of gravity of the lifting device according to the present invention, the lifting device can be used in much narrower spaces than previously known lifting devices, as shown in Figs. 4 and 5. This results in an increased capacity in storage spaces and the like, since the need for wide aisles is avoided.

The aisles need not be wider than the lifting device itself, since rotation of the housing 20 does not cause the housing 20 to extend beyond the boundaries of the frame 18 and wheels 22, unlike the prior art lifting device shown in Fig. 12 where the housing extends considerably outside. the frame of the vehicle when the lifting device is rotated to set the working platform laterally.

By attaching the boom to the upper rear surface of the counterweight, a longer boom is obtained than with previously known lifting devices, while at the same time the greater proximity of the center of gravity of the counterweight to the axis of rotation of the lifting device at the same time provides greater accessibility. In addition to the increased reach due to the placement of the boom on the upper surface of the counterweight, a longer boom can also be used compared to previously known lifting devices. Since the boom is attached directly to the upper rear surface of the counterweight, it is possible to provide a longer boom to reach greater heights and place the counterweight assembly and thereby the boom pivot, much closer to the axis of rotation of the lifting device compared to the corresponding distance of a conventional lifting device of this type. Since the working platform on the longer boom is further away from the axis of rotation if the counterweight has the same position as in a shorter boom lift device, the counterweight and boom pivot can be repositioned to a slightly greater distance from the axis of rotation to compensate for the increased positive force exerted by a loaded platform with the boom in its horizontal position. This relocation of the boom pivot pin moves the work platform closer to the axis of rotation of the lifting device when the boom is in its raised position, which enables the worker to work closer to the axis of rotation and thereby simplifies the lifting maneuvers required by the worker in this position. _ i

Claims (6)

10 15 20 8000767-7 01 g / QENTKRAV i i i i Lifting device comprising a self-propelled frame; a bomb; and a body mounted on the frame to be selectively rotatable about a vertical axis of rotation; wherein the body comprises a counterweight having a center of gravity and a connecting device arranged to pivotally attach the boom to the body, characterized in that the center of gravity of the counterweight (140) is located between the connecting device of the boom with the body and said axis of rotation. Lifting device according to claim 1, wherein the frame has four wheels rotatably attached thereto and the lifting device has a support surface defined by said wheels, characterized in that the counterweight (140) is so arranged in the body relative to said axis of rotation that upon rotation of the body the center of gravity of the counterweight is always within said support surface. IN 3. Lifting device according to claim 2, characterized in that the counterweight is located on the body so that when the body rotates about said rotary axis, the counterweight is always within the support surface of the lifting device. Lifting device according to one of the preceding claims. § 6 kneaded in that the counterweight (140) has a front side (152) adjacent to said axis of rotation, a rear side (150) spaced from said axis of rotation, and an upper surface (158) which intersects said front and rear axles. rear sides, the boom (12) being pivotally attached to the counterweight adjacent the intersection between said upper side and rear side. Lifting device according to claim 4, characterized in that the upper side (158) slopes downwards from the rear side (150) to the front side (152). Lifting device according to claim 4 or 5, characterized in that the boom (12) is pivotally attached to the upper side (158) of the counterweight (140).